Polymer systems for oral delivery of insulin
Keywords:
diabetes mellitus, insulin, encapsulation, mucoadhesive polymers, hydrogels
Abstract
Diabetes mellitus is among the top ten leading causes of death worldwide and remains a serious health problem. More than half a billion people worldwide have diabetes, which occurs when the body is unable to produce insulin or due to the inefficient use of the produced insulin. To keep blood glucose levels within the acceptable norm, people with type 1 diabetes need daily injections of insulin. Even though insulin remains an indispensable drug in the treatment of diabetes, its injectable form prevents its wider use. To eliminate the barriers associated with the injectable form of insulin, improve ease of use, and supply therapeutic benefits, a lot of work is underway to create an oral form of insulin. This review is devoted to the presentation of general information about modern achievements in the creation of an oral form of insulin. The paper describes the prevalence of diabetes mellitus and its treatment, methods of protein encapsulation, difficulties in the use of oral insulin, as well as various approaches that have been taken to overcome barriers to the creation of an oral form of insulin. The latest achievements in the use of mucoadhesive polymers and hydrogels for drug delivery are considered. Mucoadhesive polymers such as chitosan and alginate are attracting increasing attention due to their properties such as pH sensitivity, biocompatibility, and biodegradability. Methods of encapsulation of protein drugs with the use of spray drying, emulsification, and deposition of polymer materials by complexation are presented.
References
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51 Liu D, Kobayashi T, Russo S, Li F, Plevy S, et al (2013) AAPS J 15:288–298. Crossref
52 Senthil K, Dhachinamoorthi D, Saravanan R, Gopal U, V.Shanmugam (2011) International Journal of Pharmaceutical Sciences Review and Research 10:37–45.
53 Madhav S, Gupta D (2011) International Journal of Pharmaceutical Sciences and Research 2:1889-1899
54 Gupta S, Jain A, Chakraborty M, Sahni J, Ali J (2013) Drug Deliv 20:237–246. Crossref
55 Catalan-Latorre A, Ravaghi M, Manca ML, Caddeo C, Marongiu F, et al (2016) Eur J Pharm Biopharm 107:49–55. Crossref
56 Park K, Kwon IC, Park K (2011) Reactive and Functional Polymers 71:280–287. Crossref
57 Schipper N Varum K, Artursson P (1996) Pharm Res 13:1686–1692. Crossref
58 Alai M, Lin W, Pingale S (2015) J Food Drug Anal 23:351–358. Crossref
59 Jannin V, Dellera E, Chevrier S, Chavant Y, Voutsinas C, et al (2015) Drug Dev Ind Pharm 41:1582–1588. Crossref
60 Boushra M, Tous S, Fetih G, Korzekwa K, Lebo D et al. (2016) Int J Pharm 511:462–472. Crossref
61 Yokoyama M (2014) J Drug Target 22:576–583. Crossref
62 Mitragotri S, Burke P, Langer R (2014) Nat Rev Drug Discov 13:655–672. Crossref
63 Williams A, Barry B (2004) Adv Drug Deliver Rev 56:603–618. Crossref
64 Brayden D, Mrsny R (2011) Therapeutic Delivery 2:1567–1573. Crossref
65 Vandenberg G, De La Noгe J (2001) J Microencapsul 18:433–441. Crossref
66 Coppi G, Iannuccelli V, Leo E, Bernabei M, Cameroni R (2001) Drug Dev Ind Pharm 27:393–400. Crossref
67 Mi F, Sung H, Shyu S (2002) Carbohyd Polym 48:61–72. Crossref
68 Wang L, Ma G, Su Z (2005) J Control Release 106:62–75. Crossref
69 Guerreiro L, da Silva D, Girard-Dias W, Mascarenhas C, Miranda K, et al (2017) Braz J Pharm Sci 53(2). Crossref
70 Lin P, Chen K, Miao Y, Chen H, Lin K, et al (2019) Adv Funct Mater 29:1809015. Crossref
71 Suzuki I, Egawa Y, Mizukawa Y, Hoshi T, Anzai J (2002) Chem Commun 2:164–165. Crossref
72 Wang Z, Feng Z, Gao C (2008) Chemistry of Materials 20:4194–4199. Crossref
73 Pallarola D, Bildering C Von, Pietrasanta L, Queralto N, Knoll W, et al (2012) Phys Chem Chem Phys 14:11027–11039. Crossref
74 Pavlukhina S, Sukhishvili S (2011) Adv Drug Deliver Rev 63:822–836. Crossref
75 Tomita S, Sato K, Anzai J (2008) J Colloid Interf Sci 326:35–40. Crossref
76 Sukhishvili S, Granick S, Layered (2002) Macromolecules 35:301–310. Crossref
77 Elia G (2008) Proteomics 8:4012–4024. Crossref
78 Yao H, Hu N (2010) J Phys Chem B 114:3380–3386. Crossref
79 Antipov A, Sukhorukov G, Leporatti S, Radtchenko I, Donath E (2002) Colloid Surface A 198–200:535–541. Crossref
80 Dam H, Caruso F (2013) Langmuir 29:7203–7208. Crossref
81 Zuo Q, Lu J, Hong A, Zhong D, Xie S et al. (2012) Biomed Mater 7:035012. Crossref
82 Santos J, Nouri A, Fernandes T, Rodrigues J, Tomas H (2012) Biotechnol Progr 28:1088–1094. Crossref
83 Yoshida K, Sato K, Anzai J (2010) J Mater Chem 20:1546–1552. Crossref
84 Balabushevich N, Pechenkin M, Shibanova E, Volodkin D, Mikhalchik E (2013) Macromol Biosci 13:1379–1388. Crossref
85 Kirzhanova E, Pechenkin M, Demina N, Balabushevich N (2016) Moscow University Chemistry Bulletin 71:127–133. Crossref
86 Yoshida K, Ono T, Kashiwagi Y, Takahashi S, Sato K, Anzai J-I (2015) Polymers-Basel 7:1269–1278. Crossref
87 Muntoni E, Marini E, Ahmadi N, Milla P, Ghe C (2019) Acta Diabetol 56:1283–1292. Crossref
88 Mudassir J, Darwis Y, Muhamad S, Ali Khan A (2019) Int J Nanomed 14:4895–4909. Crossref
89 Liu X, Li C, Lv J, Huang F, An Y, et al (2020) ACS Appl Bio Mater 3:1598–1606. Crossref
90 Ramadas M, Paul W, Dileep K, Anitha Y, Sharma C (2000) J Microencapsul 17:405–411. Crossref
91 Xing L, Dawei C, Liping X, Rongqing Z (2003) J Control Release 93:293–300. Crossref
92 Dai C, Wang B, Zhao H, Li B, Wang J (2006) Colloid Surface B 47:205–210. Crossref
93 Alfatama M, Lim L, Wong T (2018) Mol Pharm 15:3369–3382. Crossref
94 Chen Z, Han S, Yang X, Xu L, Qi H, et al (2020) Int J Nanomed 15:4877–4898. Crossref
95 Li H, Zhang Z, Bao X, Xu G, Yao P (2018) Colloid Surface B 170:136–143. Crossref
96 Bhattacharyya A, Nasim F, Mishra R, Bharti R, Kundu P (2018) J Appl Polym Sci 135:46365. Crossref
97 Sudhakar S, Chandran S, Selvamurugan N, Nazeer R (2020) Int J Biol Macromol 150:281–288. Crossref
98 Ito S, Torii Y, Chikamatsu S, Harada T, Yamaguchi S, et al (2021) Mol Pharm 18:1593–1603. Crossref
99 Ghavimishamekh A, Ziamajidi N, Dehghan A, Goodarzi M, Abbasalipourkabir R (2019) Indian Journal of Clinical Biochemistry 34:418–426. Crossref
100 Ghasemi H, Kheiripour N, Alipoor B, Ranjbar A, Pourfarjam Y, et al (2020) Iran J Basic Med Sci 23:1–9.
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Published
2023-03-31
How to Cite
Yerlan, G., Tyussyupova, B., Tazhibayeva, S., & Musabekov, K. (2023). Polymer systems for oral delivery of insulin. Chemical Bulletin of Kazakh National University, 108(1), 12-29. https://doi.org/https://doi.org/10.15328/cb1298
Section
Colloid and Nano Chemistry
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